Materials NanoarchitectonicsKatsuhiko Ariga, Mitsuhiro Ebara A unique overview of the manufacture of and applications for materials nanoarchitectonics, placing otherwise hard-to-find information in context. Edited by highly respected researchers from the most renowned materials science institute in Japan, the first part of this volume focuses on the fabrication and characterization of zero to three-dimensional nanomaterials, while the second part presents already existing as well as emerging applications in physics, chemistry, biology, and biomedicine. |
Contents
Change Thinking toward Nanoarchitectonics | 1 |
Synthesis | 33 |
Tubular Nanocontainers for Drug Delivery | 85 |
Graphene Nanotechnology | 111 |
Nanoarchitectonics of Multilayer Shells toward Biomedical | 125 |
Layered Nanoarchitectonics with LayerbyLayer Assembly | 141 |
Emerging 2D Materials | 155 |
SelfAssembly and Directed Assembly | 167 |
ShapeMemory Materials | 209 |
Materials Nanoarchitectonics for Application | 221 |
Efficient Absorption of Sunlight Using Resonant Nanoparticles | 241 |
Nanoarchitectonics Approach for Sensing | 255 |
SelfHealing | 265 |
Materials Nanoarchitectonics for Application | 277 |
Mechanobiology | 291 |
Diagnostics | 303 |
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Common terms and phrases
absorption acid activity addition American Chemical Society applications architectures Ariga assembly band biomaterials block carbon carriers cells changes channel Chem chemical colloidal complex composite demonstrated developed devices direct drug drug delivery edge effect efficiency electrical electronic energy enhanced et al example fabrication field Figure formation functional graphene groups growth hybrid hydrogel important improved induced interactions interface layer Lett ligands light materials mechanism mesoporous metal method molecular molecules Nano nanoarchitectonics nanocrystals nanomaterials nanoparticles nanoscale nanostructures nanotubes nanowires Nature observed optical organic oxide particles performance Phys polarization polymer porous prepared properties protein reaction release reported Reproduced with permission response result Science selective self-assembly self-healing shape showed specific structures substrate surface synthesis technique temperature transistor types various Wang Zhang